In the realm of modern engineering and architecture, the mission of materials has long surpassed simple covering or decoration.
With the widespread adoption of electric bicycles and the rapid development of distributed energy storage systems, lithium batteries have become the mainstream power source due to their high energy density. However, their thermal runaway risk is increasin
Through a heat-sensitive self-starting mechanism and highly efficient nano-aerosol fire extinguishing technology, Hot Aerosol achieves rapid, clean, and reliable fire suppression in confined spaces without power or pressure vessels.
In scenarios such as energy storage power stations, lithium batteries are densely arranged in a modular form, and local thermal runaway may trigger a chain reaction.
As an innovative automatic fire extinguishing device, Hot Aerosol's core value lies in its ability to respond rapidly and extinguish fires in their initial stages without human intervention, external power, or complex control systems.
As innovative energy harvesting devices, temperature-sensitive magnetic power generation components cleverly convert thermal energy into electrical energy, achieving the dual functions of "passive alarm" and "real-time feedback."